View clinical trials related to Wounds and Injuries.
Filter by:"Severe traumatic brain injury (TBI) is a serious condition, common in young adults. It leads to sensorimotor and cognitive sequelae that hinder social reintegration. Neuronal plasticity must be used quickly before natural recovery impedes neuronal regrowth. In this respect, stopping sedation as soon as possible and early mobilization, even if the patients are unconscious, are recognized as useful measures to promote recovery. However, at the early stage, the environment of the ICU and the acute condition of the patients limit the rehabilitation possibilities. In such a context, functional proprioceptive stimulations (Vibramoov™ system, Techno Concept, France) could be a tool of interest. By using the proprioceptive signatures of cyclic movements, proprioceptive stimulations can elicit the illusion of these movements. A motor response can even be obtained through the interactions between the peripheral nervous system and the central nervous system. Finally, such stimulations facilitate the initiation of the mimicked movements. Some studies have already shown the benefits of proprioceptive vibrations. However, so far, these benefits have only been studied at the chronic stage of neurological diseases. The investigators hypothesized that early functional proprioceptive stimulations (FPS) may reduce spasticity and promote recovery in patients with severe traumatic brain injury. To test the hypothesis, the investigators conduct a randomized controlled trial on patients with severe traumatic brain injury. Every patient will be included as soon as possible in the ICU and receive either FPS, either sham stimulations to the joints of the lower limbs, 4 times a week during 8 weeks. The primary outcome measures will assess spasticity. The investigators also assess pain, coma recovery; muscle wasting and cognitive impairments. "
"Spinal cord injury (SCI) is a dramatic event resulting in a long-term handicap. Appropriate care from admission to the intensive care unit (ICU) is a key element not only for the survival of these patients but also to promote their recovery. Moreover, the studies on natural history of SCI have shown that most of the recovery occurs within the first 3 to 6 months post-injury. This period is therefore crucial for these patients. However, the environment of the ICU and the acute condition of the patients limit the rehabilitation possibilities. In such a context, functional proprioceptive stimulations (Vibramoov™ system, Techno Concept, France) could be a tool of interest. By using tendon vibrations, the Vibramoov™ system allows to reproduce the proprioceptive signatures of cyclic movements such as walking. Some studies have already demonstrated the benefits of proprioceptive vibrations. However, so far, these benefits have only been studied at the chronic stage of neurological diseases. The investigators hypothesized that early functional proprioceptive stimulations (FPS) may reduce spasticity and promote sensorimotor recovery in tetraplegic and high paraplegic patients. To test their hypothesis, the investigators conduct a randomized controlled trial on 40 patients with traumatic SCI. These patients will be stratified into two groups according to the completeness of their lesion. Every patient will be included within ten days post-injury and receive either FPS, either sham stimulations to the joints of the lower limbs, 4 times a week during 8 weeks. the primary outcome measures will assess spasticity. the investigators also assess sensorimotor recovery, pain, muscle wasting, cognitive impairment and functional status. "
The purpose of this study is to validate the capacity of a reflex training system to change the size of the targeted reflex. For this, the researchers are recruiting 25 individuals with chronic incomplete SCI who have spasticity in the leg to participate in the reflex training procedure. The study involves approximately 45 visits with a total study duration of about 6 months.
Rebion has developed a device, the Rebion trauma tool (referred to as the head and intraocular trauma tool, or "HITT"), that detects ocular fixation and alignment using a binocular retinal scan. Preliminary data obtained from hospitalized patients with a clinically-confirmed traumatic brain injury (TBI) and uninjured controls indicates that the device can detect changes in ocular fixation, alignment, and saccades that are related to brain injury. This study seeks to evaluate the ability of the Rebion trauma tool to assess perturbations in eye movements resulting from TBI. The study will enroll 100 TBI patients and 100 controls.
Traumatic brain injury (TBI) is the leading cause of disability in children and young adults. Children with moderate to severe TBI are typically at risk of poor functional outcome in terms of neurocognitive impairment and behavior problems. Neurocognitive impairments include deficits in attention and working memory, learning and memory, and executive functioning, whereas behavior problems include anxiety, depression and aggression. Neuroimaging techniques based on multi-modal magnetic resonance image (MRI) can detect the structural and functional brain abnormalities objectively and sensitively. Recent evidence indicates that even after mild TBI, children with risk factors for intracranial pathology are at risk of poor neurocognitive and behavioral outcome.Meanwhile, recently, the concept of "gut-brain axis" has been proposed and hint gut microbiota could shape the brain. Some studies have emphasized that human gut microbiota plays an important role in the pathogenesis and development of TBI. However, how the gut affects the brain in patients with TBI is unclear. Thus, combining analysis of neuroimaging and "gut-brain axis" will provide more information for finding the risk factors and imaging diagnostic markers of brain impairment in TBI. It will also helpful for explaining the underlying mechanisms of brain impairment in TBI, providing an objective basis for clinical diagnosis and prediction of the prognosis.
Pediatric traumatic injury (i.e., injury of sudden onset and severity requiring immediate attention) is the leading cause of death and morbidity among US adolescents and are associated with mental health and health risk outcomes, including posttraumatic stress and depression (affecting between 19-42%), deficits in physical recovery, social functioning and quality of life, which if unaddressed, may contribute to increased use of health care services. The investigators partnered with three accredited Level I and II pediatric trauma centers to conduct a multi-site hybrid 1 effectiveness-implementation trial with 300 adolescent (ages 12-17) traumatic injury patients to assess the extent to which the Trauma Resilience and Recovery Program (TRRP), a scalable and sustainable, technology-enhanced, multidisciplinary stepped model of care, promotes improvement in quality of life and emotional recovery and gather preliminary data on the potential for TRRP to be implemented in other Level I trauma centers. Directly in line with NICHD's Pediatric Trauma and Critical Illness Research and Training (PTCIB) Strategic Research and Training agenda, this study will provide valuable data on the efficacy, preliminary effectiveness and potential for implementation of an innovative, cost-effective, sustainable technology-enhanced intervention designed to address the unique needs of adolescent injury patients and mitigate short- and long-term impact of injury on mental health, quality of life, and overall well-being.
This Randomized Controlled Trial (RCT) will explore the effect of sub-symptom threshold aerobic exercise on persistent post-concussion symptoms and exercise intolerance in patients with mild Traumatic Brain Injury (TBI). The hypothesis is that sub-symptom training will reduce the symptom pressure, normalize exercise tolerance, reduce patient-specific activity limitations and improve health-related quality of life. To improve the chances of conducting a high-quality RCT, a feasibility trial will be completed prior to the definitive RCT.
This study will look to validate predictive algorithms developed in a previous study where we collected relevant data from trauma registry and after using advanced signal-processing and machine-learning, determined prediction scores regarding neuroworsening and other outcomes following traumatic brain injury.
This study will evaluate the safety and effectiveness of melatonin for the prevention of antibiotic associated acute kidney injury in hospitalized patients.
Neuropathic pain is very common following a spinal cord injury, estimated to affect 43% of patients after 6 months. A proportion of these patients do not respond to treatment and there remains an unmet need to treat people with refractory spinal injury related neuropathic pain. While neuropathic pain medications, baclofen pumps and spinal cord stimulation work for some patients, a significant number are refractory to these therapies. Chronic pain can contribute to loss of functional ability, mental health problems, and a worse quality of life. Studies of functional neuroimaging have shown that the Anterior Cingulate Cortex (ACC) is a key structure in human pain perception, being part of a central pain neuromatrix or medial pain system, which includes thalamic nuclei and periaqueductal grey matter. A similar neuromatrix also including the insula is involved in the regulation of the autonomic nervous system, which explains the well-recognized interactions between pain and autonomic function. Moreover, it has been shown that the ACC is important for the emotional experience and thus the subjective intensity of pain, and it has a role in cognitive control processes for optimizing behaviour in the presence of pain. Bilateral anterior cingulotomy has been demonstrated to be a safe and effective therapeutic option for patients with otherwise intractable pain syndromes of different origins, e.g., refractory pain due to cancer or stroke. Although, cingulotomy has been shown to be a viable option in intractable pain of different origins, there remains a lack of evidence in patients with spinal cord injury and only scanty data are available in literature. Moreover, the effects of cingulotomy on mood, emotion processing, cognition and autonomic reactivity are not clear.